Mapping Heat Resistance in YeastsIn a proof-of-concept study, researchers demonstrated that a new genetic mapping strategy called RH-Seq can identify genes that promote heat resistance in the yeast Saccharomyces cerevisiae, allowing this species to grow better than its closest relative S. paradoxus at high temperatures.

First Monoploid Reference Sequence of SugarcaneFor the highly polyploid sugarcane, an international team of researchers has successfully assembled a first monoploid reference sequence using a targeted approach that focused on the gene rich part of the genome by harnessing information from a sequenced related species – sorghum.

Defining a Pan-Genome for Antarctic ArchaeaSome Antarctic lakes have salinities 10 times that of seawater. By collecting and sequencing dominant haloarchaeal sequences from six hypersaline lakes, researchers focused on understanding the genomic variation in haloarchaea across East Antarctica.

Methane Flux in the AmazonWetlands are the single largest global source of atmospheric methane. This project aims to integrate microbial and tree genetic characteristics to measure and understand methane emissions at the heart of the Amazon rainforest.

Insights into Functional Diversity in NeurosporaThis proposal investigates the genetic bases of fungal thermophily, biomass-degradation, and fungal-bacterial interactions in Sordariales, an order of biomass-degrading fungi frequently encountered in compost and encompassing one of the few groups of thermophilic fungi.

Mining IMG/M for CRISPR-Associated ProteinsResearchers report the discovery of miniature CRISPR-associated proteins that can target single-stranded DNA. The discovery was made possible by mining the datasets in the Integrated Microbial Genomes and Microbiomes (IMG/M) suite of tools managed by the JGI. The sequences were then biochemically characterized by a team led by Jennifer Doudna’s group at UC Berkeley.

DAS Tool for Genome Reconstruction from MetagenomesThrough the JGI’s Emerging Technologies Opportunity Program (ETOP), researchers have developed and improved upon a tool that combines existing DNA sequence binning algorithms, allowing them to reconstruct more near-complete genomes from soil metagenomes compared to other methods. The work was published in Nature Microbiology.

Preparing for a Sequence Data DelugeThe approved CSP 2019 proposals leverage new capabilities and higher throughput in DNA sequencing, synthesis and metabolomics. Additionally, just over half of the accepted proposals come from primary investigators who have never led any previously accepted JGI proposal.

Innovative Technology Improves Our Understanding of Bacterial Cell SignalingCyclic di-GMP (Guanine Monophosphate) is found in nearly all types of bacteria and interacts with cell signaling networks that control many basic cellular functions. To better understand the dynamics of this molecule, researchers developed the first chemiluminescent biosensors for measuring cyclic di-GMP in bacteria through work enabled by the JGI’s Community Science Program (CSP).

Hidden Giants in Forest SoilsIn Nature Communications, giant virus genomes have been discovered for the first time in a forest soil ecosystem by JGI and University of Massachusetts-Amherst researchers. Most of the genomes were uncovered using a "mini-metagenomics" approach that reduced the complexity of the soil microbial communities sequenced and analyzed.

Symbiosis a Driver of Truffle DiversityTruffles are the fruiting bodies of the ectomycorrhizal (ECM) fungal symbionts residing on host plant roots. In Nature Ecology & Evolution, an international team sought insights into the ECM lifestyle of truffle-forming species. They conducted a comparative analysis of eight Pezizomycete fungi, including four species prized as delicacies.

Expanding Fungal Diversity, One Cell at a TimeIn Nature Microbiology, a team led by JGI researchers has developed a pipeline to generate genomes from single cells of uncultivated fungi. The approach was tested on several uncultivated fungal species representing early diverging fungi.